心室内和心外膜应用腺苷对延髓PGL神经元电活动的影响

在35只切断两侧缓冲神经和迷走神经的麻醉大鼠,观察心室内注射腺苷和心外膜涂布腺苷对延髓腹外侧头端区PGL神经元自发电活动的影响。结果如下：（1）35只大鼠共记录到121个自发放电单位,平均放电频率为22．5±1．9spikes／s。（2）心室内冲击注射腺苷（0．5μmol/kg,0．1ml）时,BP先升（△1．7±0．2kPa,P＜0.001）后降（△4.6土0.5kPa,P＜0．001）,HR减慢（△126．5±12.3bpm,P＜0.001）;35个PGL神经元自发放电单位中,30个单位的放电频率由21．9士2．6增至29．2土3．4spikes／s（P＜0．001）,3个单位不变,2个单位减少。（3）心外膜涂布腺苷（20mmol/L）,动脉血压和心率的变化不明显,22个PGL神经元自发放电频率由18．8土1．9增至26．9土2．8spikes／s（P＜0．001）,3个单位的放电频率无变化。（4）静脉注射选择性腺苷A1受体拮抗8－cyclopentyl-1,3－dipropylxanthine（DPCPX,500μg／kg）可完全阻断腺苷对PGL神经元的兴奋效应。（5）在左右房室沟涂布85％酚或切除双侧星状神经节后,腺苷激活PGL神经元的效应即行消失。结果提示,腺苷可通过人受体激活心交感神经传入纤维,进而兴奋PGL神经元。     

最后区微量注射辣椒素对大鼠血压、心率和肾交感神经放电的影响

在36只麻醉Sprague-Dawley大鼠, 观察了最后区内微量注射辣椒素(10 μmol/L, 50 nl)对平均动脉压(MAP)、心率(HR)和肾交感神经放电(RSNA)的影响.实验结果如下:(1)最后区内注射辣椒素可引起 MAP、HR 和RSNA明显增加, 分别由12.34±0.53 kPa、 328.52±7.54 bpm 和100±0% 增至15.17±0.25 kPa (P<0.001)、 354.81±8.54 bpm (P<0.001) 和156.95±7.57% (P<0.001);(2) 静脉注射辣椒素受体阻断剂钌红(100 mmol/L, 0.2 ml) 后, 辣椒素的上述效应可被明显抑制;(3) 预先应用NMDA 受体阻断剂MK-801 (500 μg/kg, 0.2 ml, iv)也明显抑制辣椒素的兴奋效应.以上结果提示, 最后区微量注射辣椒素对血压、心率和肾交感神经放电有兴奋作用, 而此作用由辣椒素受体介导并有谷氨酸参与.     

颈动脉注射17β -雌二醇对去缓冲神经大鼠延髓腹外侧头端区神经元放电活动的影响

本研究旨在观察17β-雌二醇(E2)对雄性大鼠延髓腹外侧头端区(RVLM)神经元自发放电活动的影响.在切断双侧缓冲神经的麻醉雄性Sprague-Dawley大鼠上,同步记录血压、心率和RVLM神经元的自发放电活动.颈动脉内注射E2 (10 ng/kg),30个RVLM神经元自发放电单位中有25个单位的放电频率由14.46±0.47降至9.73±0.33 spikes/s (P<0.05),与此同时血压和心率无明显改变.E2的抑制效应在1 min内起效,持续时间长于5 min.雌激素受体拮抗剂tamoxifen (5 mg/kg)不能阻断E2 的抑制效应.预先给予一氧化氮(NO)合酶阻断剂L-NAME (2.7 μg/kg)能明显阻断E2的抑制效应.应用NO供体SIN-1 (0.5 μg/kg)可增强E2的抑制效应.以上结果提示,E2可通过非基因组效应激活RVLM神经元的NOS而引发NO释放,进而抑制其自发放电活动.     

颈动脉注射辣椒素对脑干心血管相关核团一氧化氮合酶和Fos表达的影响

实验采用NADPH－d组化技术和Fos蛋白免疫组化技术相结合的方法,观察了颈动脉注射辣椒不时,大鼠脑干心血管相关核团内NOS和Fos蛋白的分布以及两者的共存关系。结果显示：（1）颈动脉注射辣椒不可诱发脑干中最后区（AP）、孤束核（NTS）、巨细胞旁外侧核（PGL）和蓝斑（LC）等多个部位Fos样免疫反应（FLI)神经元显著增加 中脑中央灰质（PAG）和中缝核群（RN）的FLI神经元无明显改变。（2）PGL和NTS内NO合成神经元以及PGL内双标神经元数量也明显增加,而AG和RN中NO合成神经元无明显变化,在LC和AP仅偶见或未见NO合成神经元。（3）预先应用辣椒素受体阻断剂钌红或NMDA受体阻断剂MK－801,则明显减弱辣椒素的上述效应,以上结果表明,颈动脉注射辣椒素可兴奋脑干心血管活动相关核团神经元,NO在脑干核团对辣椒素的反应中发挥间接的调制作用,辣椒素的效应由香草酸受体（辣椒素受体）介导并有谷氨酸参与。     

颈动脉注射腺苷对去缓冲神经大鼠延髓腹外侧头端区神经元放电的影响

在28只切断双侧缓冲神经的Sprague－Dawley大鼠,应用细胞外记录方法,观察了72个自发放电单位中颈动脉注射腺苷对延髓腹外侧头端（RVLM）区神经元自发放电活动的影响。所得结果如下：（1）颈动脉注射腺苷（25μg/kg）,31个单位的放电频率由23．5±3．0下降至（16．5±2．6）spikes／s（P＜0．001）,血压和心率无明显变化（P＞0．05）;（2）在24个单位中,应用非选择性腺苷受体拮抗剂8-苯茶碱（8-phenyltheophylline,15μg/kg）和选择性腺苷A1受体持抗剂8-环戊-1,3-二丙基黄嘌呤（8－cyclopentyl-1,3－dipropylxanthine,50μg/kg）均可完全阻断腺苷的抑制效应;（3）在应用ATP敏感性钾通道阻断剂格列苯脲（500μg/kg）的12个单位中,腺苷的上述效应亦被消除。以上结果提示,腺苷对RVLM区神经元自发放电有抑制作用,而此作用与A1受体介导的ATP敏感性钾通道开放有关。     

颈动脉内注射腺苷对去缓冲神经大鼠最后区神经元放电的影响

在45只切断双侧缓冲神经的SpragueDawley大鼠,应用细胞外记录方法,观察了颈动脉内注射腺苷对76个最后区(AP)神经元自发放电活动的影响。所得结果如下:(1)在记录到的42个自发放电单位中,颈动脉内注射腺苷(25μg/kg)引起其中29个单位的放电频率由626±075下降至474±076spikes/s(P<001),6个单位放电频率由413±077增加至472±083spikes/s(P<005),另外7个单位放电频率无明显变化,而血压和心率在实验中无变化;(2)在应用非选择性腺苷受体拮抗剂8苯茶碱(8phenyltheophylline,15μg/kg)的10个单位,腺苷对放电的抑制效应可被完全阻断;(3)应用选择性腺苷A1受体拮抗剂8环戊1,3二丙基黄嘌呤(8cyclopentyl1,3dipropylxanthine,50μg/kg)亦可有效地阻断腺苷对12个单位的抑制效应;(4)应用ATP敏感性钾通道阻断剂格列苯脲(500μg/kg)的12个单位,腺苷的上述效应也被消除。以上结果提示,腺苷对AP区神经元自发放电有抑制作用,而此作用与A1受体介导的ATP敏感性钾通道开放有关。     

颈动脉注射肾上腺髓质素对去缓冲神经大鼠最后区神经元自发放电的影响

在63只切断两侧缓冲神经的麻醉sprague-Dawley大鼠,应用细胞外记录的电生理学方法,观察颈内动脉注射肾上腺髓质素(adrenomedullin,AM)对最后区(area postrema,AP)神经元自发电活动的影响。实验结果如下:(1)在记录到的78个自发放电单位中,颈内动脉内注射AM(0.3 nmol/kg),引起其中47个单位的自发放电频率由2.99±0.24增加到4.79±0.29 spikes/s(P<0.001),20个单位自发放电频率由3.24±0.46下降至1.97±0.37 spikes/s(P<0.001),另外11个单位自发放电频率无明显改变;平均动脉压和心率无明显变化。(2)颈内动脉注射降钙素基因相关肽受体阻断剂CGRP_(8-37)(3 nmol/kg)不能改变AM对自发放电的兴奋效应;(3)颈内动脉注射L-精氨酸(30 mg/kg)可减弱AM对自发放电的兴奋效应。以上结果提示,AM对最后区神经元有兴奋作用,此作用不是由降钙素基因相关肽受体介导,但可被NO前体L-精氨酸所减弱。     

肾动脉内注射辣椒素兴奋肾神经传入纤维的自发活动

应用记录肾传入神经多单位和单位放电的方法,观察肾动脉内注射辣椒素对麻醉家兔肾神经传入纤维自发放电活动的影响。结果表明：(1)肾动脉内注射辣椒素20、40和60nmol／kg可呈剂量依赖性地兴奋肾传入纤维的活动,而动脉血压不变;(2)静脉内预先应用辣椒素受体阻断剂钌红(40mmol／kg),可完全阻断辣椒素对肾传人纤维的兴奋作用。(3)静脉内预先注射一氧化氮合酶抑制剂L-NAME(0．1mmol／kg),能延长并增强肾传入神经对辣椒素的反应。以上结果提示：肾动脉内应用辣椒素可兴奋肾传人纤维的自发放电活动。一氧化氮作为抑制因素参与辣椒素诱导的肾传入神经兴奋。     

大鼠扣带回前部对外侧缰核单位放电的抑制作用

电刺激扣带回前部,对75％的外侧缰核痛兴奋神经元(pain-excitative neuron of lateral habenular nucleus,LHPE)和75％的痛抑制神经元(pain-inhibitive neuron of lateral habenular nucleus,LHPI)的自发放电均产生抑制作用,并取消躯体和内脏伤害性刺激对外侧缰核(lateral habenular nucleus,LHN)单位放电的影响。扣带回内微量注射吗啡可以抑制LHPE的自发放电,并取消伤害性刺激对LHPE的增频效应。注射纳洛酮则使LHPE的自发放电增多,加强伤害性刺激对LHPE的增频作用,并可拮抗电针对LHPE伤害性刺激反应的抑制作用。     

肾缺血增强大鼠延髓腹外侧头端区神经元电话动和Fos蛋白表达

在67只切断两侧缓冲神经的麻醉Sprague-Dawley大鼠,应用细胞外记录的电生理方法和免疫组织化学技术,分别观察肾缺血对延髓腹外侧头端区巨细胞旁外侧核神经元自发放电活动和Fos蛋白表达的影响.所得结果如下(1)左肾动脉阻断后,28个单位的放电频率由11.40±1.08增至21.1±1.74spikes/s(P<0.001),血压和心率无明显变化(P>0.05);(2)在17个放电单位中,应用腺苷受体拮抗剂8-苯茶碱(8-phenyltheophylline,10mg/kg)可明显抑制肾缺血的兴奋效应(P<0.05);(3)肾缺血后,延髓腹外侧头端区的Fos蛋白样免疫反应神经元显著增加(P<0.01);(4)预先应用8-苯茶碱可明显减弱肾缺血所激活的Fos蛋白表达反应(P<0.05).以上结果提示肾缺血增强延髓腹外侧头端区神经元的放电活动和Fos蛋白表达,而此作用可能与肾脏缺血所产生的腺苷激活肾内感受器有关.     

辣椒素引起脑干内心血管活动相关核团中c-fos的表达

在１６只切断两侧缓冲神经的大鼠,观察颈总动脉注射辣椒素对脑干内心血管活动相关核团ｃ－ｆｏｓ原癌基因表达的影响。在剂对照组大鼠脑干,仅见少数Ｆｏｓ蛋白样免疫反应（ＦＬＩ）神经元。与对照组相比,颈总动脉注射辣椒素（１０μｍｏｌ,０．１ｍｌ）时,脑干内巨细胞旁外侧核（ＰＧＬ）、蓝斑（ＬＣ）、最后区（ＡＰ）和孤束核（ＮＴＳ）等部位的ＦＬＩ神经元显著增加,而中脑中央灰质（ＰＡＧ）和中缝核群（ＲＮ）的ＦＬＩ神     

内皮素通过最后区易化大鼠延髓腹外侧头端区神经元活动

在３５只切断双侧缓冲神经、用氨基甲酸乙酯－α氯醛糖混合麻醉的Ｓｐｒａｇｕｅ－Ｄａｗｌｅｙ大鼠,应用细胞外记录的电生理学方法,由ＲＭ－６０００型多道生理记录仪和ＷＳ－６８２Ｇ热阵记录器（频响范围０～２．８ｋＨｚ）同步记录血压、心率和单位神经元放电,观察颈动脉注射内皮素对８７个延髓腹是头端区（ＲＶＬＭ）自发放电神经元活动的影响,所得结果如下;（１）颈动脉注射ＥＴ－１（０．３ｎｍｏｌ／ｋｇ）时３６个单位     

Responses of neurons in rostral ventrolateral medulla to activation of cardiac receptors in rats

Ischemic stimulation of cardiac receptors reflexly excites the cardiovascular system. However, the supraspinal mechanisms involved in this reflex are not well defined. This study examined the responses of barosensitive neurons in the rostral ventrolateral medulla (RVLM) to stimulation of cardiac receptors and the afferent pathways involved in these responses. Single-unit activity of RVLM neurons was recorded in alpha-chloralose-anesthetized rats. Cardiac receptors were stimulated by epicardial application of 10 microg/ml of bradykinin (BK). Barosensitive neurons were silenced by stimulation of baroreceptors. Application of BK increased the mean arterial pressure from 65.2 +/- 1.9 to 89.3 +/- 2.9 mmHg and excited RVLM barosensitive neurons from 6.2 +/- 0.7 to 10.7 +/- 0.9 impulses/s (P < 0.05, n = 40). BK had no effect on 21 nonbarosensitive neurons. Blockade of stellate ganglia abolished the response of barosensitive neurons to BK. Cervical vagotomy significantly increased the baseline discharges of RVLM barosensitive neurons but had no effect on their responses to BK. Thus this study indicates that stimulation of cardiac receptors selectively activates RVLM barosensitive neurons through sympathetic afferent pathways. This information suggests that the RVLM barosensitive neurons are likely involved in the sympathetic control of circulation during myocardial ischemia.     

Inhibitory effects of propofol on neuron firing activities in the rostral ventrolateral medulla

The effect of propofol on neuronal activity in the rostral ventrolateral medulla (RVLM) is not well established. Therefore, we performed extracellular recording on neurons of the RVLM to investigate neuronal activity before and after administration of intravenous propofol. The mean systemic arterial pressure (MSAP), heart rate and integrated neuronal firing rate (INFR) in the RVLM were continuously recorded in anesthetized cats before and after intravenous injection of 2 mg/kg propofol or supplemental injections of 1, 2 and 4 mg/kg propofol that were given respectively. Additionally, we compared the MSAP, heart rate (HR), and INFR in the RVLM following intravenous injection of 2 mg/kg propofol or 12.5 microg/kg nitroprusside. Neuronal firing was dose-dependently and reversibly inhibited after the supplemental doses of 1, 2 and 4 mg/kg propofol. The control INFR was 14.2 +/- 9.9 Hz, and this decreased to 12.1 +/- 9.4 Hz after the first dose of propofol (P = 0.085 vs. control), and further decreased to 9.3 +/- 7.7 Hz (P = 0.001 vs. control) and 7.5 +/- 7.7 Hz (P < 0.001 vs. control) after the second and third doses of propofol, respectively. Besides, SAP and HR were dose-dependently decreased by propofol as well. However, the effects of propofol and nitroprusside on neuronal activity in the RVLM differed. Propofol inhibited neuronal firing, whereas nitroprusside activated neuronal firing. In conclusion, propofol may dose-dependently inhibit spontaneous neuronal activity and the baroreflex in the RVLM.     

腺苷对家兔颈动脉化学感受器活动的影响

The response of single carotid chemoreceptor afferent fibers upon adenosine acting on the carotid body (CB) was examined in 39 urethan-anesthetized rabbits. Totally 73 units with spontaneous discharge were recorded in our experiment. The results were as follows: (1) Of 55 units, 51 showed an increase in discharge frequency from 0.76 +/- 0.10 to 1.53 +/- 0.23 imp/s. A few new units were recruited concomitantly in response to intracarotid injection of adenosine (10 micrograms/kg). (2) Adding adenosine in the doses of 0.5, 1.5, 10, 50 and 100 micrograms/kg to the perfusate passing through the isolated carotid sinus led to dose-dependent increase in the discharge from 0.51 +/- 0.06 to 0.58 +/- 0.07, 0.78 +/- 0.13, 0.96 +/- 0.15, 1.11 +/- 0.17, 1.34 +/- 0.21 and 1.38 +/- 0.18 imp/s, respectively (P less than 0.001, n = 9 units). (3) In other 9 units with spontaneous discharge rate of 1.30 +/- 0.40 imp/s, the activity was decreased to 0.56 +/- 0.19 imp/s (P less than 0.01) by intracarotid injection of dopamine (50 micrograms/kg). Intracarotid injection of adenosine to the CB pretreated with dopamine still activated the units with an increase in firing rate to 1.07 +/- 0.28 imp/s (P less than 0.01). However, the increment was less prominent as compared with that of adenosine administration before dopamine injection (P less than 0.001). From the results obtained, it is hypothesized that the exciting effect of adenosine on the CB chemoreceptor may be attributed to its action on the presynaptic component of the chemoreceptor complex in attenuating the release of inhibitory transmitter dopamine, and its direct stimulating action on the chemosensory nerve endings.     

颈动脉内注射腺苷对去缓冲神经大鼠最后区神圣凶放电影响

To observe the effect of intracarotid administration of adenosine on the electrical activity of area postrema (AP) neurons, 76 spontaneous active units were recorded from 45 sino-aortic denervated Sprague-Dawley rats using extracellular recording technique. The results obtained are as follows. (1) Following intracarotid administration of adenosine (Ado, 25 micrograms/kg), the discharge rate of 29 out of 42 units decreased markedly from 6.26 +/- 0.75 to 4.74 +/- 0.76 spikes/s (P < 0.01), whereas that of 6 units increased from 4.13 +/- 0.77 to 4.72 +/- 0.83 spikes/s (P < 0.05), and the other 7 showed no response. Blood pressure (BP) and heart rate (HR) were unaltered throughout the experiment. (2) 8-phenyltheophylline (8-PT, 15 micrograms/kg), a nonselective adenosine receptor antagonist, completely blocked the inhibitory effect of Ado in 10 units. (3) Selective A1 adenosine receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX, 50 micrograms/kg), blocked the effect of Ado in 12 units to a remarkable extent. (4) Glibenclamide (500 micrograms/kg), a blocker of ATP-sensitive potassium channel, abolished the effect of Ado in 12 units. The above results indicate that Ado can inhibit spontaneous electrical activity of AP neurons, which is mediated by adenosine A1-receptor with the involvement of ATP-sensitive potassium channels.